CN115835077A - Earphone storage box - Google Patents

Abstract

A headset storage box comprises a support piece, a first storage piece used for storing a first headset, a second storage piece used for storing a second headset and a driving piece used for rotatably connecting the first storage piece, the second storage piece and the support piece. The driving piece can independently and respectively drive the first receiving piece and the second receiving piece to rotate relative to the supporting piece. The driving piece can drive the first storage piece and the second storage piece respectively and rotate to open and close the earphone storage box, so that the earphones can be easily taken and the user experience can be improved.

Description

Earphone storage box

Technical Field

The invention relates to the field of electronic products, in particular to an earphone storage box.

Background

With the rapid development of Wireless communication technologies such as bluetooth technology, TWS (True Wireless Stereo) headsets have been developed rapidly, and more people are used to use TWS headsets in offices, travels, trips and fitness places. TWS headsets are currently commonly charged and stored using a charging box. The charging box in the prior art is short in length, and the upper cover is not convenient to open for a user with a large hand in the opening process, so that the user experience is seriously influenced.

Disclosure of Invention

The invention aims to provide an earphone storage box convenient to open and close.

In order to achieve the purpose, the invention adopts the following technical scheme: a headset storage box comprises a support piece, a first storage piece used for storing a first headset, a second storage piece used for storing a second headset and a driving piece used for rotatably connecting the first storage piece, the second storage piece and the support piece. The driving piece can independently and respectively drive the first receiving piece and the second receiving piece to rotate relative to the supporting piece.

Further, the driving member includes an operation portion, a driving portion fixedly connected to the operation portion, a first driving rod and a second driving rod selectively driven by the driving portion, and a locking portion for locking a position of the driving portion, and the first driving rod and the second driving rod are respectively used for driving the first accommodating member and the second accommodating member.

Furthermore, the driving part further comprises a connecting shaft fixedly connected with the supporting part, the operating part is rotatably connected with the connecting shaft, and the locking part is fixedly connected with the connecting shaft.

Furthermore, the first storage piece and the second storage piece are respectively provided with a first pivot hole and a second pivot hole for the connection shaft to penetrate through.

Further, a first driving groove and a second driving groove for accommodating the first driving rod and the second driving rod are respectively arranged in the first pivot hole and the second pivot hole, and the first driving groove and the second driving groove are respectively communicated with the first pivot hole and the second pivot hole.

Furthermore, the driving part comprises a base part, and a first driving end and a second driving end which extend downwards from the base part, the first driving end and the second driving end are arranged at intervals and protrude out of the lower end face of the base part, and an abdicating space is formed between the first driving end and the second driving end.

Further, the locking part is provided with a limit block extending towards the driving part.

Furthermore, the upper surface of the locking part facing the driving part is an inclined surface which gradually inclines upwards from the limiting block to two sides, the driving part is further provided with a first blocking groove and a second blocking groove which are formed by upwards sinking the base part, and the first blocking groove and the second blocking groove are respectively matched with the first driving rod and the second driving rod.

Further, the actuating member further includes a biasing member that biases the actuating portion toward the locking portion.

Further, the first accommodating part and the second accommodating part respectively comprise a main body part and an accommodating groove which is recessed downwards from the top end of the main body part and penetrates through the main body part outwards, and the first earphone and the second earphone are accommodated in the accommodating grooves of the first accommodating part and the second accommodating part respectively.

Furthermore, the supporting member comprises a top wall, a bottom wall opposite to the top wall and two side walls connected between the top wall and the bottom wall, and the top wall and the side walls cover the opening of the accommodating groove to enable the accommodating groove to be a closed accommodating space.

Further, still include the module of charging, the module of charging is simultaneously to being located first earphone of first storage piece and being located the second earphone of second storage piece charges.

Furthermore, the charging device further comprises a first charging module and a second charging module, wherein the first accommodating piece and the second accommodating piece are respectively provided with accommodating grooves for accommodating the first charging module and the second charging module.

The driving piece can drive the first storage piece and the second storage piece respectively and rotate to open and close the earphone storage box, so that the earphones can be easily taken and the user experience can be improved.

Drawings

FIG. 1 is a perspective view of the earphone receiver of the present invention;

FIG. 2 is an exploded view of the earphone receiver and earphones of the present invention;

FIG. 3 is an exploded view of a portion of the earphone receiver of the present invention with the support removed;

FIG. 4 is a perspective view of another perspective of FIG. 3, wherein the first receptacle and the second receptacle are both in a closed state;

FIG. 5 is a cross-sectional view of the earphone receiver of the present invention;

fig. 6 is a perspective view of the driving member, the first driving lever, the second driving lever 35, and the locking portion;

FIG. 7 is a perspective diagrammatic view of another perspective of FIG. 6;

fig. 8 is a perspective view of the earphone storage case of the present invention, in which the first storage member is in an open state and the second storage member is in a closed state.

Reference numerals: the earphone storage case 100, the support member 1, the top wall 11, the bottom wall 12, the side wall 13, the storage cavity 10, the storage member 2, the first storage member 21, the first pivot hole 211, the first driving groove 212, the second storage member 22, the second pivot hole 221, the second driving groove 222, the main body portion 25, the storage groove 26, the storage groove 27, the bottom plate 28, the driving member 3, the connecting shaft 31, the operating portion 32, the driving portion 33, the base portion 331, the first driving end 332, the second driving end 333, the first blocking groove 337, the second blocking groove 338, the first driving rod 34, the second driving rod 35, the locking portion 36, the limiting block 361, the biasing member 37, the charging module 4, the circuit board 41, the battery 42, the charging interface 43, the discharging interface 44, the first charging module 45, and the second charging module 46.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. The terms "connect", "install", "fix", and the like in the following description may be directly connected, installed, and fixed, or indirectly connected, installed, and fixed, that is, allowing the intervention of a third party substance, unless otherwise specified. The terms "first," "second," "third," and the like may be used herein to describe various elements, but these elements are not limited by these terms, which are used merely to distinguish the described objects, not in any sequential or technical sense.

Referring to fig. 1 to 4, the present invention discloses an earphone storage box 100, which includes a supporting member 1, a receiving member 2 for receiving an earphone 50, a driving member 3 for rotatably connecting the receiving member 2 and the supporting member 1, and a charging module 4 disposed in the receiving member 2.

The supporting member 1 comprises a top wall 11, a bottom wall 12 opposite to the top wall 11 and two side walls 13 connected between the top wall 11 and the bottom wall 12, wherein the top wall 11, the bottom wall 12 and the two side walls 13 enclose an accommodating cavity 10 for accommodating the accommodating member 2 and the driving member 3.

In the embodiment disclosed in the present invention, the receptacle 2 includes a first receptacle 21 for receiving the first earphone and a second receptacle 22 for receiving the second earphone, and the first receptacle 21 and the second receptacle 22 are respectively disposed at both sides of the driving member 3. Each of the first receiving member 21 and the second receiving member 22 includes a main body 25, a receiving groove 26 recessed downward from a top end of the main body 25 and penetrating the main body 25 outward, a receiving groove 27 formed extending upward from a bottom wall of the main body 25, and a bottom plate 28 closing an opening of the receiving groove 27. The receiving groove 26 is used for receiving the earphone 50, and the receiving groove 27 is used for receiving the charging module 4.

When the earphone storage case 100 is in a closed state, the opening of the storage groove 26 is covered by the top wall 11 and the side wall 13 of the support member 1, so that the storage groove 26 becomes a closed storage space for storing the earphones 50; when the earphone storage case 100 is in the open state, the opening of the storage groove 26 is exposed outside the support 1, so that the user can take and place the earphones 50 through the opening of the storage groove 26.

The charging module 4 includes a circuit board 41, a battery 42 capable of charging and discharging, a charging interface 43 electrically connecting an external power source and the battery 42, and a discharging interface 44 electrically connecting the earphone 50 and the battery 42. As shown in fig. 2, in the embodiment of the disclosure, the charging module 4 includes a first charging module 45 for charging a first earphone and a second charging module 46 for charging a second earphone, and the first charging module 45 and the second charging module 46 are disposed in the same manner and are respectively disposed in the receiving slots 27 of the first receiving member 21 and the second receiving member 22.

After the first and second earphones are placed in the receiving grooves 27 of the first and second receiving members 21 and 22, respectively, the first and second charging modules 45 and 46 charge the first and second earphones, respectively. Because of being provided with two charging module 45, 46 and charging respectively for first earphone and second earphone, can improve charge efficiency to can charge for the not enough charging module 45 of reserve capacity alone according to battery 42's electric storage amount, when charging for a certain earphone, do not influence getting of another earphone and put.

In other embodiments, the first earphone and the second earphone may share one charging module 4 for charging, that is, the charging module 4 is provided as only one, which is capable of simultaneously charging the first earphone located in the first receiving member 21 and the second earphone located in the second receiving member 22, and accordingly, one of the first receiving member 21 and the second receiving member 22 is provided with a receiving groove 27 for receiving the charging module 4. Compared with a structure that two charging modules are independently arranged to charge the first earphone and the second earphone, the structure is simpler and the manufacturing cost is lower.

As shown in fig. 3 and 4, the driving member 3 includes a connecting shaft 31 fixedly connected to the support member 1, an operating portion 32 rotatably connected to the connecting shaft 31, a driving portion 33 fixedly connected to the operating portion 32, a first driving lever 34 and a second driving lever 35 selectively driven by the driving portion 33, a locking portion 36 locking a position of the driving portion 33, and a biasing member 37 biasing the driving portion 33 toward the locking portion 36. The locking portion 36 is fixedly connected with the connecting shaft 31, the first receiving member 21 and the second receiving member 22 are respectively provided with a first pivot hole 211 and a second pivot hole 221 through which the connecting shaft 31 passes, and the support member 1, the first receiving member 21 and the second receiving member 22 are rotatably connected through the matching of the connecting shaft 31 and the first pivot hole 211 and the second pivot hole 221.

The first pivot hole 211 and the second pivot hole 221 are respectively provided therein with a first driving groove 212 and a second driving groove 222 for receiving the first driving rod 34 and the second driving rod 35, and the first driving groove 212 and the second driving groove 222 are respectively communicated with the first pivot hole 211 and the second pivot hole 221. One end of the first driving lever 34 is driven by the driving portion 33, and the other end is received in the first driving groove 212, and when the driving portion 33 drives the first driving lever 34 to rotate, the first driving lever 34 drives the first receiving member 21 to rotate, so that the opening of the receiving groove 26 of the first receiving member 21 is exposed outside the support member 1, and at this time, the first receiving member 21 is in an open state. Similarly, one end of the second driving rod 35 is driven by the driving portion 33, and the other end is accommodated in the second driving groove 222, when the driving portion 33 drives the second driving rod 35 to rotate, the second driving rod 35 drives the second accommodating member 222 to rotate, so that the opening of the accommodating groove 26 of the first accommodating member 222 is exposed outside the support member 1, and at this time, the second accommodating member 22 is in an open state.

Specifically, as shown in fig. 6 to 8, the driving portion 33 includes a base 331, and a first driving end 332 and a second driving end 333 extending downward from the base 331, wherein the first driving end 332 is used for driving the first driving rod 34, and the second driving end 333 is used for driving the second driving member 35. The first driving end 332 and the second driving end 333 are disposed at an interval of 180 ° and protrude from the lower end surface of the base 331 so that an abdicating space is formed between the first driving end 332 and the second driving end 333.

When the operation portion 32 is operated to rotate clockwise, the operation portion 32 drives the driving portion 33 to rotate clockwise, and when the driving portion 33 rotates clockwise, the first driving end 332 drives the first driving rod 34 to rotate, and the first driving rod 34 rotates to drive the first accommodating member 21 to rotate, so that the first accommodating member 21 is opened. Since the first driving end 332 and the second driving end 333 have a space therebetween, the driving portion 33 does not drive the second driving lever 35 to rotate when rotating clockwise, so that only the first container 21 is driven to open and the second container 22 is still in the closed state when the operating portion 32 rotates clockwise.

Similarly, when the operation portion 32 rotates counterclockwise, the operation portion 32 drives the driving portion 33 to rotate counterclockwise, and when the driving portion 33 rotates counterclockwise, the second driving end 333 drives the second driving rod 35 to rotate, and the second driving rod 35 drives the second accommodating member 22 to rotate, so that the second accommodating member 22 is opened. Since the space is provided between the first driving end 332 and the second driving end 333, the driving portion 33 does not drive the first driving lever 34 to rotate when rotating counterclockwise, so that when the operating portion 32 rotates counterclockwise, only the second receiving member 22 is driven to open, and the first receiving member 21 is still in the closed state.

More specifically, the locking portion 36 further has a stopper 361 formed to extend from the base portion 331 toward the driving portion 33, and an upper surface of the locking portion 36 toward the driving portion 33 is an inclined surface gradually inclined upward from the stopper 361 to both sides. During the rotation of the driving operation part 32, the stopper 361 can abut against the first driving end 332 and the second driving end 333, respectively, to prevent the driving part 33 from being excessively rotated. The driving part 33 is further provided with a first blocking groove 337 and a second blocking groove 338 concavely formed upward from the base 331, and during the process of opening the first receiving member 21 or the second receiving member 22 by the rotation operating part 32, the driving part 33 moves in a direction approaching the locking part 36 while rotating due to the biasing action of the biasing member 37 and the upper surface of the locking part 36 being an inclined surface, so that the first driving lever 34 and the second driving lever 34 are gradually received in the first blocking groove 337 and the second blocking groove 338, respectively, and thus the first driving lever 34 and the second driving lever 35 can drive the first receiving member 21 and the second receiving member 22 to move to the closed state when the operating part 32 is rotated reversely.

In the disclosed embodiment of the present invention, the biasing member 37 is a wave spring, and in other embodiments, the biasing member 37 may be any member having an elastically deformable property capable of biasing the driving part 33 toward the locking part 35.

The earphone storage box 100 is characterized in that a first storage piece 21 for storing a first earphone and a second storage piece 22 for storing a second earphone are rotatably connected through a driving piece 3, and the driving piece 3 can respectively and independently drive the first storage piece 21 and the second storage piece 22 to rotate so as to open and close the earphone storage box, so that the earphones can be easily taken and the user experience can be improved; the first container 21 and the second container 22 are charged by using the independent charging modules 4, respectively, and charging efficiency can be improved.

The above embodiments are only used for illustrating the present invention and not for limiting the technical solutions described in the present invention, and the understanding of the present specification should be based on the technical personnel in the technical field, such as directional descriptions of "front", "back", "left", "right", "upper", "lower", etc., and although the present specification has been described in detail with reference to the above embodiments, the technical personnel in the technical field should understand that the present invention can be modified or substituted equivalently by the technical personnel in the technical field, and all technical solutions and modifications thereof without departing from the spirit and scope of the present invention should be covered in the claims of the present invention.

Claims (13)

1. The utility model provides an earphone receiver which characterized in that: the earphone comprises a support piece (1), a first accommodating piece (21) used for accommodating a first earphone, a second accommodating piece (22) used for accommodating a second earphone and a driving piece (3) used for rotatably connecting the first accommodating piece (21), the second accommodating piece (22) and the support piece (1), wherein the driving piece (3) can independently and respectively drive the first accommodating piece (21) and the second accommodating piece (22) to rotate relative to the support piece (1).

2. The earphone storage case of claim 1, wherein: the driving piece (3) comprises an operation part (32), a driving part (33) fixedly connected with the operation part (32), a first driving rod (34) and a second driving rod (35) which are selectively driven by the driving part (33), and a locking part (36) for locking the position of the driving part (33), wherein the first driving rod (34) and the second driving rod (35) are respectively used for driving the first accommodating piece (21) and the second accommodating piece (22).

3. The earphone storage case of claim 2, wherein: the driving piece (3) further comprises a connecting shaft (31) fixedly connected with the supporting piece (1), the operating portion (32) is rotatably connected with the connecting shaft (31), and the locking portion (36) is fixedly connected with the connecting shaft (31).

4. The earphone storage case of claim 3, wherein: the first accommodating piece (21) and the second accommodating piece (22) are respectively provided with a first pivot hole (211) and a second pivot hole (221) for the connecting shaft (31) to penetrate through.

5. The earphone storage case of claim 4, wherein: a first driving groove (212) and a second driving groove (222) for accommodating the first driving rod (34) and the second driving rod (35) are respectively arranged in the first pivoting hole (211) and the second pivoting hole (221), and the first driving groove (212) and the second driving groove (222) are respectively communicated with the first pivoting hole (211) and the second pivoting hole (221).

6. The earphone storage case of claim 2, wherein: the driving part (33) comprises a base part (331), a first driving end (332) and a second driving end (333), wherein the first driving end (332) and the second driving end (333) extend downwards from the base part (331), the first driving end (332) and the second driving end (333) are arranged at intervals and protrude out of the lower end face of the base part (331), and a yielding space is formed between the first driving end (332) and the second driving end (333).

7. The earphone storage case of claim 3, wherein: the locking part (36) has a stopper (361) formed to extend toward the driving part (33).

8. The earphone storage case of claim 7, wherein: the upper surface of the locking part (36) facing the driving part (33) is an inclined surface which gradually inclines upwards from the limiting block (361) to two sides, the driving part (33) is further provided with a first blocking groove (337) and a second blocking groove (338) which are formed by upwards recessing the base part (331), and the first blocking groove (337) and the second blocking groove (338) are respectively matched with the first driving rod (34) and the second driving rod (35).

9. The earphone storage case of claim 2, wherein: the actuating member (3) further includes a biasing member (37) biasing the actuating portion (33) toward the locking portion (36).

10. The earphone storage case of claim 1, wherein: the first accommodating part (21) and the second accommodating part (22) respectively comprise a main body part (25) and an accommodating groove (26) which is recessed downwards from the top end of the main body part (25) and penetrates through the main body part (25) outwards, and the first earphone and the second earphone are accommodated in the accommodating grooves (26) of the first accommodating part (21) and the second accommodating part (22) respectively.

11. The earphone storage case of claim 10, wherein: the supporting piece (1) comprises a top wall (11), a bottom wall (12) and two side walls (13), wherein the bottom wall (12) is arranged opposite to the top wall (11), the two side walls (13) are connected between the top wall (11) and the bottom wall (12), and the top wall (11) and the side walls (13) cover the opening of the accommodating groove (26) to enable the accommodating groove (26) to be a closed accommodating space.

12. The earphone storage case of claim 1, wherein: the earphone is characterized by further comprising a charging module (4), wherein the charging module (4) is used for simultaneously charging a first earphone located in the first accommodating piece (21) and a second earphone located in the second accommodating piece (22).

13. The earphone storage case of claim 1, wherein: the charging device is characterized by further comprising a first charging module (45) and a second charging module (46), wherein the first accommodating piece (21) and the second accommodating piece (22) are respectively provided with accommodating grooves (27) for accommodating the first charging module (45) and the second charging module (46).

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